a cube totally submerged in water . calculate the buoyant force acting on this cube . given : g=10N/kg , volume of the cube =24m
3 , density of water = 1000 kg/m3?
1 answer:
Answer:
Explanation:
Given that,
The volume of the cube, V = 24 m³
The density of water, d = 1000 kg/m³
We need to find the buoyant force acting on this cube when it totally submerged in water. The formula for the buoyant force is given by :
Substitute all the values,
So, the required force is equal to 235200 N.
You might be interested in
Answer:
Frictional force increases with the increase in the roughness of the surface.
Explanation:
You will see that the rougher the surface, the greater the wear and tear.
Answer:
(D. Gestalt psychology) , is the school of psychology that believes perception is more than the sum of its parts, it involves a whole pattern
.
This type of school of psychology studied how all components of sensations are assembled into one's perception
.
hope this helps :)
A fundamental force , is your answer .
The light coming out of a concave lens will never meet.
So, the answer is A. will never meet.
Happy Studying! ^^
R = 18 ohms
Explanation:
Given:
V = 36 volts
I = 2.0 A
R = ?
Use Ohm's law to solve for the resistance:
V = IR
or
R = V/I
= (36 volts)/(2.0 A)
= 18 ohms
